Personalized information push system for education management based on big data mode and collaborative filtering algorithm

Relying on network technology, the integration of personalized learning and Internet technology has become another trending industry. This paper explores a new strategy for education management, that is, a personalized information push system based on recommendation algorithms. The system can push personalized learning resources for teachers and students and help them quickly locate interest points and learning directions by analyzing their usage history and tag attribute characteristics. The personalized information push algorithm achieves data fidelity by pre-cleaning or pre-processing the data. In addition, after the clustering algorithm is integrated into the system, its computing efficiency and mining depth are greatly improved than before. At the same time, based on collaborative filtering technology, this paper introduces information entropy and standard deviation to optimize the core algorithm, so as to distinguish the similarity between users, and further push recommendation accuracy and precision to a higher level. Finally, the existing problems in the current development of big data education management are analyzed, and future development strategies are proposed. To sum up, the personalized information recommendation system proposed in this study has a lower MAE value, so this has forward-looking significance for enhancing the depth of interactive learning and changing the inherent learning mode.


Introduction
The interconnectedness and mutual benefit of technological networks have given people an unprecedented level of control over the timing and degree of learning. Education management in the new era has become more and more dependent on computer technology. Therefore, how to make better use of online learning platforms providing personalized and targeted education and learning information for teachers and students has become a hot topic for researchers (Luk et al. 2018). At present, there are many online learning platforms that provide free learning resources in multiple fields, including public courses in various countries. Educational resources and learning information have exploded (Oliwa 2021). In the face of complex and diverse learning data, how to efficiently provide suitable learning observation resources and network data convenient services for the majority of learners in a short period of time has aroused the interest of many scholars. Based on the above problems and thinking, and relying on big data analysis, the recommendation mode of matching collaborative filtering algorithm has become a relatively high-quality choice among many ideas (Zhang 2016). The current network knowledge is very complex, and the huge network enables all aspects of knowledge that can be uploaded and learned, accumulated over time, the formation of a large number of knowledge database. The massive amount of information can easily lead to students being unable to accurately locate the content suitable for them, resulting in knowledge loss (Xiao-Qing et al. 2020). Therefore, the personalized push service of the learning platform can help students quickly locate the content they are interested in and suitable for them, and the personalized recommendation algorithm has been widely used in this field (Jiang et al. 2010). Labels and personalized recommendation algorithms solve the problem of resource push on learning platforms. On the premise of deepening the popularity of data recommendation, a new push mode with tag recommendation algorithm as the core is constructed (Geyer-Schulz et al. 2001;Sangaiah et al. 2020). The system integrates labels. This element is used to push learning information. The personalized information push system aims to provide students with different interests with convenient and efficient personalized push services for learning resources. In addition, according to the learning characteristics of different students, teachers monitor the students' learning dynamics and learning status by analyzing their label characteristics, which reduces the internal friction of teaching and improves the accuracy of teaching (Zhang and Zhuang 2013). Therefore, in order to play the main role of students better and ensure higher learning efficiency within a limited time, personalized recommendation must be integrated into data analysis.

Related work
The explosive value-added of big data makes information exchange more convenient. This form of content transmission brings a variety of information and enriches our lives. The literature proposes that the continuous development of big data and Internet technology has resulted in the excessive growth of information, and we are currently in an information-overloaded big data environment (Saxena and Lamest 2018). The literature believes that the complexity of data and information can easily cause more and more people to lose their way in the Internet and cannot accurately obtain the information they want and are interested in Lee et al. (2013). The literature suggests that online learning platforms have become more and more popular, and schools have built teaching websites or learning systems one after another, providing massive learning resources, enabling more and more learners to learn on the Internet (Sari and Oktaviani 2021). The literature believes that personalized recommendation technology is an intelligent system that collects and analyzes users' historical data, and pushes personalized content for users through algorithm design. Personalized recommendation is different from mass push mode, and its purpose is to solve the problem of resource overload (Cong 2020). Due to its high degree of pertinence, it is widely used in all walks of life. The literature summarizes the current personalized information push system in the field of education, except for the LIRA system and the Letizia system, and the technical level is relatively lagging behind (Shan and Ren 2010). At present, the research depth and breadth of the personalized push model are not superior enough, but the development potential is huge. The literature believes that Chinese scholars' research on personalized recommendation systems mainly focuses on the construction and optimization of data models, and the improvement and training of recommendation algorithms (Albayrak et al. 2005;Sangaiah et al. 2019). Considering the similarity between user habits and characteristics, this paper introduces a more matching new algorithm, that is, collaborative filtering algorithm. The literature proposes an online teaching video recommendation algorithm, which adopts a collaborative filtering algorithm to solve the shortcomings of the cold start of the data model and the sparsity of the scoring matrix. The literature improves the basic recommendation algorithm, optimizes the hybrid collaborative filtering algorithm by combining weighting and user clustering, and the experimental results prove that it can effectively improve the accuracy (Dong et al. 2017;Sangaiah et al. 2023). In the aspect of algorithm research of personalized push system, the literature proposes to use fuzzy semantics to solve the problems existing in traditional algorithms, and the literature proposes that association rules can be used to implement personalized information recommendation. In the research process of recommendation algorithm, collaborative filtering algorithm has been proved to be an algorithm with better recommendation effect, so many researchers have practiced and discussed the algorithm. The literature is aimed at the personalized algorithm and combines the item category similarity technology, which can integrate the personalized context content into the scoring prediction, which makes the recommendation effect better (Strub et al. 1603). This algorithm improvement based on item score prediction can solve the cold start defect of traditional personalized recommendation algorithms through item categories and scores and further improve the accuracy of information push. The literature proposes that user context can be integrated into personalized information recommendation, and the category of users can be judged according to the context of the user, so as to conduct cluster analysis, and finally, push the content of interest, which improves the push effect. Labels are labels that users freely add when browsing information or publishing information. This form has certain flexibility and convenience (Guo and Zhao 2013). The literature proposes that tags can well reflect the real feelings and interests of users and can locate users' accurate preferences through tags.

Push algorithm
In the context of big data, personalized push services have been widely used in the Internet. Before the personalized information push system performs data push, it must first analyze the data information, perform data mining and data clustering, and the push algorithm determines the personalized push service. Effect. In the new era of continuous development of big data technology, students and teachers will collect learning resources from various aspects every day, and these data information will eventually aggregate into massive user data. The purpose of data mining technology is to analyze and judge valuable and meaningful content for students and teachers from massive learning data, and promote teaching. As far as the application scope of data mining technology is concerned, its breadth has covered many fields, which is attributed to its unique data discrimination ability, that is, to filter out key content from many learning resources, which can help teachers perceive students' learning status and formulate next-step education management strategies.
Data mining technology needs to be based on complete data. Therefore, the target data set needs to be collected in advance. In addition, due to the diverse characteristics of the data format, it is likely that a certain data do not meet the analysis requirements. Therefore, it is necessary to analyze the corresponding data according to the requirements: data processing, i.e., data cleaning or preprocessing, etc. After the data operation is completed, the target data can be classified or clustered according to the corresponding algorithm. The application of clustering algorithm has a key impact on the realization of data set mining. Clustering algorithms are characterized by unsupervised processing of data, i.e., dividing the dataset into multidimensional clusters, because clusters are collections of data in groups.
With the advent of the Internet era, the coverage of multi-level applications has gradually increased, and it has become more and more urgent to recommend targeted and personalized solutions for the corresponding systems. Therefore, more and more intelligent algorithms are gradually emerging. The latter two have also received the most extensive research as the most used recommendation algorithms.
Based on the current level of technological development, collaborative filtering is the key technology of the current personalized recommendation system. Different from other recommendation technologies, collaborative filtering technology has advantages in the following aspects: (1) For some unrecognized content forms, such as artwork or music, which can still be filtered.
(2) For more complex concepts that are difficult to describe in words, it can also filter them. (3) Collaborative filtering technology is novel. However, everything has its two sides, and collaborative filtering technology also has its drawbacks, such as insufficient expansion, etc. Especially in use, the negative impact of the number of users on the system is also particularly significant, and constructive evaluation can be obtained from users. The probability is very small. In addition, the large number of users and the number of projects require higher computing requirements for collaborative filtering, so the system needs to have higher scalability.

Recommendation system
The personalized recommendation system infers the user's interest orientation by analyzing the user's historical records and recommends similar content, so it has the characteristics of pertinence and intelligence. Recommender systems implement data filtering by coordinating the correlation between users and information content. Therefore, the system has applications in many fields and has excellent applicability. In addition, the recording module, the analysis module and the push module together constitute the recommendation system. For the recommendation system, information collection can be done in an explicit way or an implicit way. The former is more interactive with the user, and the content is visible to the user, while the latter does not require the user to confirm the system permissions. The relevant information is automatically collected according to the embedded program, which also leads to the longer the time of the user's operating system, the more the system understands the user's interests and preferences. In addition, the preference analysis module also has a place in the recommendation system. It mainly analyzes the collected user information based on the built-in algorithm, so as to make personalized recommendations for users.

Algorithm model
Aiming at the problem of high sparsity in collaborative filtering recommendation algorithms, this paper proposes a metric scheme to optimize user similarity, which is used as a system performance gain. In this method, the change of similarity of the same evaluation content from different users is fully considered: Although this optimization scheme has certain advantages, the stability of the algorithm is also restricted after the introduction of the c factor.
This paper introduces the concept of information entropy, and the scoring standard difference measurement method determined by it is abbreviated as NJWDE. This method measures the similarity between users according to the information entropy of the difference between the scores and the change of the number of common evaluations. This method is applied. There is no need to rely on other information to assist, even in the case of consistent data sparsity, the similarity between users can be determined, so as to make personalized content recommendations for different user groups, so that users can get a good experience when using different applications. This method is different from the traditional similarity measurement method, which can accurately present the similarity between users, and further improve the accuracy and initiative of personalized recommendation.
Information entropy belongs to a mathematical concept, but it is now used to solve the problem of information quantification, that is, it represents the probability of discrete events, and its formula is: ::: ::: Information entropy is a measure of the chaotic degree of distribution based on mathematics. The smaller the information entropy, the lower the chaotic degree of the sample distribution. Taking an information source X as an example, its information entropy formula is as follows: Similar to other algorithms, the number of intersections of evaluation items is also related to other items, such as algorithm similarity. In this paper, n is used as the number of common scoring items to obtain the weighted value of information entropy. The smaller the n is, the smaller the similarity is. However, this model does not consider the influence of the number of active users on n. Therefore, in order to reduce the influence of the number of active users on the result, a ratio is introduced, that is, the ratio of the number of items in common between the two users and the total number of evaluation items. The formula is expressed as: The formula for the difference between the scores of M and n is as follows: Entropy value calculation formula: When two users evaluate in the same way, the information entropy is 0, which indicates that the two users have extremely high similarity.
The calculated score difference is integrated into the formula as a weight: Finally, considering that the calculation of information entropy with the number of active users as the dataset will affect the intersection of items, the corresponding intersection weight is introduced: It can be seen from formula (9) that the JWDE needs to be normalized by the model function, among which the Gaussian function, the sigmoid function or the tanh function are the most widely used, and some use the linear extreme value model for the normalization operation. The corresponding formulas are: From the above analysis, it can be seen that the information entropy is positively correlated with user differences, but negatively correlated with similarity. Therefore, it is necessary to normalize JWDE with an extreme linear model, then: NJWDE refers to the similarity between users after normalization. The closer the NJWDE value is to 1, the higher the similarity. According to formula (14), the similarity between user a and other users can be calculated, and the rating degree of the recommended user a can be further predicted. The formula is expressed as:

Model simulation
For the accuracy test of NJWDE, it is mainly realized by comparing it with the traditional algorithm. This comparison experiment uses MAE as the standard measurement index, that is, the larger the MAE value, the worse the system recommendation effect. In the experiment, the number of neighbors is expanded by predicting the unscored items, and the stride is set to 5, and then, the corresponding MAE value is obtained. The results are shown in Fig. 1: Figure 1 shows the four kinds of correlations, namely Pearson correlation, Spearman correlation, cosine similarity and NJWDE. The MAE values on a given number of neighbors are 5, 10, 15, 20, 25, 30, 35, respectively. 40, 45, 50, 55, 60, 65, etc., are given as the number of neighbors. It can be seen from Fig. 1 that the MAE value of the improved NJWDE algorithm is gradually stable when the number of neighbors is 40, and it is smaller than the other three similarity measures at each stage. Therefore, it can be shown that the NJWDE method proposed in this paper has a lower MAE value, which not only makes the system have a better recommendation effect, but also greatly improves the system application rate.
After determining the k value of the number of neighbors, the pros and cons of the recommendation effect can also be verified. This experiment uses three-dimensional indicators to evaluate the quality of the system recommendation, including the accuracy rate (Precision), recall rate (Recall) and F-value indicators as shown in Table 1: From the analysis of Table 1, it can be found that NJWDE is the best in the indicators of Recall and F-value, and experiments show that the accuracy of NJWDE algorithm is almost the same as the optimal value, so it can be concluded that NJWDE has the best recommendation effect.

Research on personalized information
push system for education management

System requirements analysis
Personalized recommendation has become an important bridge and link connecting teachers and students, and its accuracy is also improving day by day. Therefore, the establishment of an information push system based on personalized recommendation, big data analysis and artificial intelligence algorithm is very important for mastering courses, grade points, community activities and Statistical graduation information is of great significance. Therefore, it is extremely important to clarify the system requirements, which cover the learning business, the recommendation business, and the background maintenance business. First, the personalized recommendation system needs to provide users with a learning platform, that is, users can browse, evaluate and communicate with corresponding learning resources through this system; Download and favorite permissions. In addition, the system can perform data analysis and integration on the user's browsing history and search preferences, and use this as a reference to recommend learning resources of interest to the user. The maintenance business is mainly responsible for the  Personalized information push system for education management based on big data mode and… 10061 maintenance and management authorization of the administrator.
In addition, non-functional requirements, as the name suggests, refer to some non-operational requirements. A standard recommendation system should have high stability, ease of use, and security.
A standard system with good stability and high usability can bring a good user experience to users and facilitate the research and development work of developers. It can accommodate multi-threaded user access requests, and based on this, data read and write, data access and data processing of different information interfaces, high ease of use enables users to focus more on the push business itself; scalability allows users to whether add new business modules to the system or modify the calculation logic locally, and it can be quickly implemented; and security requires the system to keep the personal information of teachers and students confidential, that is, to encrypt and store user information to ensure system security.

System architecture design
The system belongs to a three-tier architecture, and its mode is shown in Fig. 2. This structure separates the display layer from the information layer and the data layer, so it has the advantage of independence that the two-layer structure does not have.
This paper builds a system model of education management personalized information push based on big data technology, as shown in Fig. 3. It includes several modules of tag library, content library, push platform and push channel. Through the collection and refinement of information, accurate information push is carried out to students, and the level of school information construction is improved.
The system can realize the push ''personal output, rich in content, diverse, authoritative and safe,'' and the tag library can assist teachers or administrators to push corresponding learning information in a planned way according to the characteristics of students. The richness and validity of the pushed content can be reviewed; in addition, as the carrier of personalized recommendation information, the content library is mainly responsible for integrating learning resources and is the basic guarantee for teachers to prepare subject examinations and obtain effective evaluation data; the push platform is mainly responsible for Extract and integrate website or platform information, then back it up in the content library, and generate matching push content; the smoothness of push channels ensures the stable output of system push content and realizes information synchronization, which is for each Users recommend personalized resources.

System function module design
The functional module of the system can be composed of seven parts, among which, the ranking of hot resources can be viewed through the resource browsing and searching module. In the user's personal resource module, users can upload and download resources according to their own needs. The user management module mainly provides registration and login functions for users. In addition, the tag labeling and scoring module mainly describes the corresponding resources or user preference content through  tags and scoring. The main functional carriers of the communication and interaction module are chat rooms, resource comments and experience sharing. The recommendation module can personally recommend learning resources for users according to the label information and distinguish the similarity of users, so as to recommend similar learning resources. When the user browses the specific content in the page, the characteristic keywords representing the information will be displayed in the expanded page in the form of specific tags. The generation of keywords is mainly used for users to mark favorite content tags from many learning contents. It is embodied in the following aspects: the system label is dynamically displayed in the preset area of the corresponding interface, and the user selects the appropriate label for calibration by browsing. In order to display the selected tags of learning resources uniformly, the system first adds the function of adding information by creating dynamic strings and then, reads the content in the data table to realize the editing and updating of local tags.

System test
This model is based on collaborative filtering and systematically tests the data of a certain school platform. In user behavior, 0 represents no operation, 1 represents click operation, and 2 represents collection operation. The experimental time is from June to August 2022, and the results are shown in Table 2: By observing the experimental data, it can be found that the K value has a strong and positive correlation with the accuracy and recall rate of the recommendation system, but too much push will also reduce the user's click rate; The amount of data in the experiment is large, so the distribution is not much different from the actual situation, both of which are normal distribution. However, due to the huge amount of Internet information flow, the user layer often has the problem of information overload, so some users often use the system when using the system. System push notifications will be turned off at the same time. And this experiment shows that even if the pushed content is accurate, it should not disturb the normal use of the user, and only in this way can a more ideal effect be obtained.
In this experiment, the latency of the data connection is studied, as shown in Table 3.
This paper makes statistics on teachers and students' willingness to use and share, and the results are shown in Table 4. The analysis shows that most users are willing to accept personalized resource recommendation and share.
The server performance under high load is tested according to the usage scenarios, and the results are shown in Table 5.
The knowledge matching degree is divided into 5 levels, which are completely irrelevant, unmatched, general, matching and very matching, and the results are analyzed, as shown in Fig. 4. 5 Big data education management development strategies 5.1 There are problems First, the system planning is not scientific enough. There is serious duplication in the construction of data centers in China, and this problem also occurs in the field of education. Each school builds its own website and college website and other platforms. These platforms all require servers and require expensive management costs, which leads to a waste of resources. At the same time, the school also has an OA system, an education management system, a one-card campus system, etc., all of which are based on business functions. Each system is not shared, compatible, or related to each other, resulting in information barriers. Teachers and students often have to log in to multiple systems to complete all applications, approvals, and study, causing unnecessary trouble for teachers and students. Moreover, multiple management systems need to be operated and upgraded at the same time, which increases the workload of technicians. Second, the legal system is not sound enough. The role of big data operation and personalized promotion in promoting education services is self-evident, and building a good network environment and ensuring that there are laws to follow are the premise and foundation for the stable operation of the recommendation system. The security problems of the school's big data platform or online management system are becoming increasingly prominent. Data security is also the biggest obstacle to system development. The establishment of a security system is an important guarantee. It is necessary to escort the school's management system through various security technologies and protection methods, such as data encryption, authentication and access control for logging in to the system.

Development strategy
The first is to adhere to the educational management concept in the era of innovative big data. Focusing on the concept of front-end education, fully clarify the advantages, disadvantages and potential of big data analysis, constantly inject new vitality into school education management, strengthen the construction of teachers, improve teachers' information literacy, and constantly innovate education management model.
The second is to insist on coordinating infrastructure construction in the context of new public services. Looking at the characteristics of today's services from a new perspective, the construction of grass-roots services has long-term significance for improving the effectiveness of education. Schools should focus on students, continuously strengthen infrastructure construction, and insist on providing high-quality and efficient information services for students and teachers.
The third is to build a clear data education management charter system. Good education is inseparable from brandnew technology. High-quality education must be based on the fluency of information, that is, the freedom of information circulation, and sound laws and regulations are effective entities guarantee.

Conclusion
The personalized push system proposed in this paper not only reasonably embeds high-quality algorithms, but also helps users classify high-quality information resources through tag positioning. Through the analysis of system requirements, the architecture design is proposed, and the similarity measurement scheme determined at the same time has excellent recommended effect. In addition, after the clustering algorithm is applied, the mining efficiency of the system is also improved. In addition, the integration of information entropy and NJWDE also makes the system have a better recommendation ability, the personalized information recommendation system proposed in this study has a higher accuracy rate, indicating that it has the feasibility of application and promotion. Finally, based on the world-wide view of educational development to evaluate the problems in educational development, build innovative educational concepts, coordinate the infrastructure construction under the background of new public services, to insist on improving the education management regulations in the era of big data, and to build a scientific and reasonable education management system. See where management is headed from a fresh developmental perspective. Data availability Data will be made available on request.

Declarations
Conflict of interest The authors declare that they have no conflict of interests.
Ethical approval This article does not contain any studies with human participants performed by any of the authors.